networking research: trends and issues - umkc
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DM, February 2007, p.1NeTReL, Networking & Telecommunications Research Lab
Networking Research: Trends and Issues
Deep MedhiNetworking & Telecommunication Research Lab (NeTReL)
Computer Science & Electrical Engineering DepartmentSchool of Computing & Engineering
University of Missouri-Kansas City, USAhttp://www.csee.umkc.edu/~dmedhi
dmedhi@umkc.edu
© D. Medhi, 2007. Permission is granted for this material to be shared for non-commercial, educational purposes.To disseminate otherwise or to republish requires written permission from the author.
DM, February 2007, p.2NeTReL, Networking & Telecommunications Research Lab
Outline
Review: CSTB 2001 ReportBroad Categories for Networking ResearchTrendsSome Historical ExamplesIssues
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DM, February 2007, p.3NeTReL, Networking & Telecommunications Research Lab
CSTB2001 Report“Looking Over the Fence at Networks: A Neighbor's View of Networking Research”– By Computer Science & Telecommunications
Board (CSTB), National Research Council of US
• Published in 2001 by National Academy Press, available http://books.nap.edu/html/looking_over_the_fence/report.pdf
• Addresses Three Broad Areas
DM, February 2007, p.4NeTReL, Networking & Telecommunications Research Lab
CSTB 2001 report: First Area
Measuring: Understanding the Internet Artifact– Challenge of Scale
• How to infer based on incomplete knowledge of configuration
• How to soundly sample network traffic, and validity of sampling approach
– Measurement Infrastructure• Deployment and operational challenges
– Nontechnical factors• Compose of production commercial systems
– E.g., Confidentiality and privacy of data
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DM, February 2007, p.5NeTReL, Networking & Telecommunications Research Lab
CSTB 2001 Report: Second Area
Modeling: New Theory for Networking– Performance:
• E.g., What sort of change in the scale and traffic pattern lead to a performance meltdown?
• Theoretical foundations in flow-level modeling, aggregration/deaggregation, micro/macro level interaction
– Beyond Performance:• Concern for manageability, reliability, robustness, and
evolvability—new basic understanding and theory– Applying Theoretical Techniques to Networking
• Understand convergence properties• New routing algorithms taking real-world constraints
(e.g. absence of complete information)
DM, February 2007, p.6NeTReL, Networking & Telecommunications Research Lab
CSTB 2001 Report: Third Area
Making disruptive prototypes (“Innovator’s Dilemma”) “A Disruptive technology can do a few things very well but may not do some very well compared to present technology”
• Example, RISC architecture (from computer architecture world)
Developing “disruptive” prototypes that challenge the current Internet
• E.g. Where should the intelligence in the network reside?
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DM, February 2007, p.7NeTReL, Networking & Telecommunications Research Lab
Trouble with Success (CSTB 2001 Report)
os·si·fi·ca·tion := The process of becoming set in a rigidly conventional pattern, as of behavior, habits, or beliefs (American Heritage Dictionary)Intellectual ossification– E.g., it’s not TCP!
Infrastructure ossification– What researchers want may not be deployed in a
commercial network (e.g., limited multicast deployment, QoS)
System ossification– Research results judged based on how hard it is to deploy on
the Internet
DM, February 2007, p.8NeTReL, Networking & Telecommunications Research Lab
CSTB2001 ReportTo Summarize– Very well done – Over five years old– Current Internet view/improvement
What’s Missing?– Wireless networking– Optical networking– Delivery/Access networks (e.g., Cable/DSL Networks)– Interaction of different networks– Network security– …
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DM, February 2007, p.9NeTReL, Networking & Telecommunications Research Lab
Network Research:
Two Broad Categories:– Current networks & related research– To imagine future networks/services &
related research
Influence of External/”Overnight”Factors
DM, February 2007, p.10NeTReL, Networking & Telecommunications Research Lab
Current Networks-Related Research
How to measure/model behaviorDriven by limitationsHow to “improve”– Due to scalability issues, operational
problems– Traffic engineering– Network reconfigurability– Security
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DM, February 2007, p.11NeTReL, Networking & Telecommunications Research Lab
Research Trends: Current Networks-related: A Few Examples
Scalability (in every way thinkable! – routing table lookup, network models, …)Internet measurement, sampling– Backbone Networks– Access Networks
Protocol extensibilityRouting: BGP, inter-network traffic engineeringIntegration of traditional IP networks and PSTN/multimedia services
DM, February 2007, p.12NeTReL, Networking & Telecommunications Research Lab
Future Networking or Services: Research, Technology Concepts & Development
Some Recent Examples: (~last 20 years)Networks:– ATM, MPLS, Optical networking– Cellular Networks, 3GPP, WiMAX
Services:– WWW, P2P, IM, text messaging
Associated protocol development, modeling, routing, security, …May or may not be commercially successful
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DM, February 2007, p.13NeTReL, Networking & Telecommunications Research Lab
Research Trend: “Future”Networks/Services and related research
Networks/Services:– MPLS/GMPLS– Virtual Private Networking– Sensor Networks– Software Radio– Service Concept Development
• IP Multimedia SubSystem (IMS)– Secure Group Communication
Faces issues such as MAC protocol, performance modeling, security as built-in feature, protocol development, performance etc
DM, February 2007, p.14NeTReL, Networking & Telecommunications Research Lab
External/”Overnight” Factor
Something an architecture wasn’t originally intended for, but is forced to handle
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DM, February 2007, p.15NeTReL, Networking & Telecommunications Research Lab
TCP “Collapse”
TCP throughput drop (1986)
Led to new congestion control/timer adjustment approach– Key here is on understanding the dynamics
• Sliding-window, window-adjustment, timer-adjustment, sampling, …
DM, February 2007, p.16NeTReL, Networking & Telecommunications Research Lab
Denial of Service (DoS) Attacks
Network functionality allowed the possibility for DoS attack– First “wave”: Web-server oriented– Next “wave”: network impact (e.g. code-red virus)
Follow-up Research– TCP ‘accept queue’, OS implementation etc– Source-oriented (‘stop close to the source’)– Router-level research: IPprefix lookup – …
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DM, February 2007, p.17NeTReL, Networking & Telecommunications Research Lab
IP Network Traffic Engineering issues for large providers
OSPF/IS-IS: dynamic routing protocolProblem: determine link weights in OSPF/IS-IS networks to load balance a networkEarly-exit/Late-exit routing issues
Router Buffer sizing:– Bandwidth-delay product
• Consider 40 Gbps link and 250 ms round-trip delay
DM, February 2007, p.18NeTReL, Networking & Telecommunications Research Lab
Routing Table Growth
CIDRIP address lookup algorithms– Need to stay with line rate (approaching
40Gbps)Packet Filtering and classification
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DM, February 2007, p.19NeTReL, Networking & Telecommunications Research Lab
Router Architecture evolution
General purpose computer architectureDifferent architectures for different “purposes”– Shared CPU architectures– Shared forwarding engine architectures– Shared nothing architectures– Clustered architectures
DM, February 2007, p.20NeTReL, Networking & Telecommunications Research Lab
Router Architectures …
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DM, February 2007, p.21NeTReL, Networking & Telecommunications Research Lab
Needs/Issues in Networking Research
Recap:– Current networks-related research– Future networks/services-related research– External factor that drives research (often
for current networks; however, principles might be useful for “future” networks)
Issues:– To highlight a few examples
DM, February 2007, p.22NeTReL, Networking & Telecommunications Research Lab
Broadband Access Technology and Service Dynamics
Broadband access Technology (DSL, Cable Modem) designed for “web”model– Lot of download bandwidth– Not much upstream bandwidth
Challenge faced (last few years)– P2P services: Napster, …– VoIP services
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DM, February 2007, p.23NeTReL, Networking & Telecommunications Research Lab
Broadband Access Technology and Service Dynamics (cont’d)
Can we design an access mechanism that is dynamically adjustable between upstream and downstream– Time-Division Duplexing (TDD)? Others?– Require solid knowledge of physical, data link, and
transport layer?Questions:– How well will the dynamics work?– How does it impact service behavior? Where is the trade-
off?– Are there possible pitfalls due to dynamism? And How to
handle them?• (recall: lesson learned from Telephone dynamic routing, TCP
congestion, …)
DM, February 2007, p.24NeTReL, Networking & Telecommunications Research Lab
Core Network Interactions: Multi-Layer Networking Dynamics
If IP layer link setting is dynamically adjustable to address for failureIf optical networking handles its own dynamic routing (GMPLS)– Good for each network, may not be good
together?• Can the inter-related network go into tailspin?
– How does ‘DoS’ attack based ‘increase’ in network traffic impact dynamic adjustability?
– How do we know good from bad traffic (e.g., a new P2P product popularity, or a new DoSattack)?
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DM, February 2007, p.25NeTReL, Networking & Telecommunications Research Lab
Routing table growth
Data source: http://bgp.potaroo.net/
Our recent estimate:N = 105625 + 920.608 (4 Y - 8007)1.52894, for Y >=2002
DM, February 2007, p.26NeTReL, Networking & Telecommunications Research Lab
Routing table growth: problemsInternet Architecture Board: Routing and addressing workshop (reported at IETF67, San Diego, CA, Nov’06)– TCAM/SRAM for routers slow growth– ASIC is already pushing limits– Memory speed improves about 10% per year– State growth is “super-linear”– Current trends in the growth are not scalable– Use of IP addresses for both ID and Location is a
problem– Sort of “second CIDR wave”, but more difficult
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DM, February 2007, p.27NeTReL, Networking & Telecommunications Research Lab
Future Directions:
Developing “disruptive” prototypes that challenge the current InternetHow to do it?Not possible to test over the current Internet– It’s a production network!
Retro-fitting is difficult (remains “patch-work” problem)
DM, February 2007, p.28NeTReL, Networking & Telecommunications Research Lab
Steps to Making it happen ..NSF’s new research program: – FIND (Future Internet Design)– Inviting proposals on radical architectural directions
GENI (Global Environment for Networking Innovations) http://www.geni.net– A large-scale proposed test-bed for experimentation
• Experimentation in every layer of the network• Customized hardware development• Test before deploy time environment• Allow many researchers to participate• Alliance with European Community
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DM, February 2007, p.29NeTReL, Networking & Telecommunications Research Lab
How to ensure that “all” problems are addressed
Classify problems: Wired/wireless, Core/AccessCore Networks
• Some idea because of IETF, NANOG (e.g. BGP problem, addressing growth …)
Access Networks• Cable/Modem, wireless• Campus/Enterprise Networks
– Need input from Net@Edu community
Security/Resilience as inherent design paradigm
DM, February 2007, p.30NeTReL, Networking & Telecommunications Research Lab
Finally, at a Fundamental Level
Is there a ‘new’ network communication mode out there?Consider time spacing:
+ Between Telegraphy and Telephony: ~50 years
+ Between Telephony and Internet: ~100 years+ Between Internet and ??
- Will everything now onward be “incremental”?
- How to not get trapped in ossification?
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